Large hail in Estonia on 12th August 2015
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1 Large hail in Estonia on 12th August 2015 Taimi Paljak, Velle Toll, Tanel Voormansik, Estonian Weather Service Introduction Hail is not as common in Northern Europe as in the rest of Europe due to the colder climate in the region, and also the maximum size of hail is not as large as in Central Europe (Punge and Kunz, 2016). Tuovinen et al. (2009) found that in Finland there are on average 5 days every year when the maximum diameter of hail exceeds 2 cm. During the summer months (June to August) there are on average 4-5 thunderstorm days in Estonia each month (Enno et al., 2013) and often thunderstorms are accompanied by hail. But according to Tammets and Kallis (2008) the size of hailstones is usually less than 10 mm in Estonia and the hail showers last for approximately 1-8 minutes. Hail is associated with deep convection for which moisture availability, conditional instability and lifting mechanisms are necessary ingredients. For the formation of large hail a very strong updraft is needed (Johns and Doswell, 1992). The forecasting of hail is challenging. Detection and nowcasting of hail can be achieved by using satellite (Cecil and Blankenship, 2012) and radar measurements (e.g., Mason, 1971; Kunz and Kugel, 2015). In recent years polarimetric observables measured by dual polarization radars have also been used to detect hail (e.g. Chandrasekar et al., 2013; Ryzhkov et al., 2013). The detection of atmospheric conditions prone to lead to large hail could be achieved by evaluating values of different atmospheric parameters important for the development of hail producing convection. E.g. Groenemeijer and Van Delden (2007) showed that the probability of large hail is greater the higher the CAPE index and the stronger the wind shear. Tuovinen et al. (2015) showed that the most-unstable mean CAPE is 1464 J/kg and the mean 0-6 km wind shear is 17.5 m/s during hail storms with hail diameter exceeding 5 cm in Finland. On the 12th August 2015 large hail was registered in many places in Estonia. Hailstone diameters of up to 40 mm were observed and in some locations the ground was covered with a white layer of hail (Figure 1). In many places the destructive power of hail was so strong that it broke the windows and glass panels of greenhouses (Figure 2). There was extensive damage to many gardens and vehicles. The damage to some vehicles was so severe that the owners were reimbursed the entire purchase price by the insurance companies. Overall the total costs of damages were estimated to be 53,000 euros. However the extent of the damage was greater, because there is no data concerning the damages to uninsured buildings in the rural areas and thus many damages remain unrecorded. 26 Figure 1: Hail in Southern Estonia, Figure 2: Broken windows in Tartumaa,
2 Weather conditions The days leading up to this massive hail storm were warm, clear-sky summer days with maximum 2mtemperatures as high as 28 C on the 10th of August. A high pressure system moved from Scandinavia towards Russia and the upper ridge of the high pressure system expanded over the Baltic States and established a southwesterly airflow with significant warm air advection from Central Europe. airmass. The arrivival of the cold front and the low level convergence ahead of it initiated the development of convection. At the same time the temperatures at 850 hpa reached 16 C and 2m-temperatures reached 31.2 C on the mainland (Figure 4). The very warm airmass in the lower levels was thus very unstable. Above it at mid and higher levels cold air advection had already started and this increased the instability. The radio sounding from Tallinn Harku at On the 12th August a centre of low pressure formed over the Norwegian Sea. The low pressure centre extended from the surface into the upper levels and the whole system extended towards Scandinavia (Figure 3). Later in the afternoon a cold front moved across Scandinavia and the Baltic Sea and arrived in the Baltic States, followed by a significantly colder Figure 3: Surface analysis at 00UTC Figure 4: 850hPa geopotential and temperatur field 00UCT
3 00UTC on the 12th August shows quite dry air in the lower and upper troposphere and higher moisture amount only in the mid-levels. Wind shear was up to 20 m/s in the 0-6 km layer favouring the development of intense convection (Figure 5). The vertical profile forecast indicated increasing thermal instability from the ground up to nearly the 200hPa level with cloud top temperature around -57 C. The convection intensified by the evening, forming a chain of cumulonimbus clouds stretching from Belarus to Lithuania and from Latvia towards Southern Estonia (Figure 6). The process was supported by violent ascending motions (Figure 7). Figure 7: At 500 (green); temperature advection at 700hPa (red: warm, bule: cold) and cyclonic vorticty advection at 500 hpa (Yellow) from ECMWF model, overlaid on Meteosat 10 IR 10.8µm image at 12UTC Figure 1: Souding Tallinn Harku at 00TUC Vertical profile forecast by 12UTC Figure 6: Day Microphysics (left); Airmass RGB (middle) and Day-Night Microphysics (right UTC
4 Figure 8: CAPE (J/kg) in the left panel and hpa wind shear modulus (m/s) in the right panel at 15 UTC Figure 9: 2m dew point temperature (ºC) together with the 10m wind vectors at 15 UTC Model guidance Weather forecasts issued by the Estonian Weather Service rely heavily on the HIRLAM NWP model output. Figures 8 and 9 are +15h HIRLAM forecasts with initial time 00 UTC The simulated CAPE values exceeded 1000 J/kg (maximum values above 1400 J/kg) in a small area in Estonia and in larger areas situated to the south and east of the locations where the hail occurred (Figure 8). The value of the hpa wind shear modulus was about 18 m/s in Estonia (also Figure 8). There was high humidity near the ground in Estonia with the the 2m dewpoint temperatures exceeding 18 ºC (Figure 9). The timing and location of the cold front was well forecast, together with the low level convergence ahead of the cold front (Figure 9). However, the onset of convection was not simulated well in the area of the hail occurrence. Based on the NWP output on 11th August, forecasts for thunderstorms with intensive rain were given for the next day. However, the model output did not give sufficient confidence to the forecasters to issue warnings for (large) hail. Figure 10: Radar 0.5 PPI reflectivity (dbz) in the left panel and dual-polarimetric hydrometeor classification in the right panel at 1615 UTC Storm signatures on radar The first signs of convective activity at multiple locations in the Estonian mainland area appeared on the radar images between 1300 and 1330 UTC. By 1345 UTC hail was already detected (on the radar) in the cores of two separate storm systems. To detect hail the standard Vaisala hydrometeor classification based on dual-polarmetric radar data was used. The isolated convective cells continued growing and at 1400 UTC the first signs of convective line formation could be detected from the radar data. A number of single convective storm cells had merged to form a squall line with a length of approximately 100 km from Southern Estonia to NE Estonia by 1430 UTC. At that time hail was observed from various places along the line. The largest base level PPI (0.5 ) reflectivities of 55 to 60 dbz were recorded between UTC behind the squall line (Figure 10, left). This coincides 29
5 well with the hail detection by radar, which showed large areas hit by hail in Viljandi county from UTC and in Tartu and Jõgeva county from UTC (Figure 10, right). Ground observations reporting large hailstones are also from these regions and in the same time window. A NW to SE RHI radar scan from 1540 UTC illustrates the cross section of the storm (Figure 11). It can be seen from the figure that the echo top of the cloud reached the maximum height of 13 km and the highest reflectivities inside the cloud were up to 66.5 dbz which are both indicators of a severe convective storm. Conclusions Large hail is rare in Estonia and consequently it is difficult to gain experience to forecast it. On hail was reported in many places in Estonia, with the maximum hail diameter exceeding an unprecedented 40 mm. The environmental conditions were favourable for the hail occurrence and this was predicted by the NWP model, but the numerical weather forecast did not predict the onset of convection in Estonia. A forecast of thunderstorms and heavy rain was given by the weather service considering the high probability of growing instability (warm air advection in the lower levels and cold air advection in the upper levels) and low level convergence. The thunderstorm warning was given when rapid convection started. The convective activity and the growth of the convective storms was well observed on the radar images. The maximum reflectivity reached as high as 66.5 dbz. The dual-polarimetric hydrometeor classification indicated multiple hail cases in the storm cells as well. References Cecil, D. J., & Blankenship, C. B. (2012). Toward a global climatology of severe hailstorms as estimated by satellite passive microwave imagers. Journal of Climate, 25(2), Chandrasekar, V., Keränen, R., Lim, S., & Moisseev, D. (2013). Recent advances in classification of observations from dual polarization weather radars. Atmospheric Research, 119, Enno, S. E., Briede, A., & Valiukas, D. (2013). Climatology of thunderstorms in the Baltic countries, Theoretical and applied climatology, 111(1-2), Groenemeijer, P. H., & Van Delden, A. (2007). Sounding-derived parameters associated with large hail and tornadoes in the Netherlands. Atmospheric research, 83(2), Johns, R. H., & Doswell III, C. A. (1992). Severe local storms forecasting. Weather and Forecasting, 7(4), Kunz, M., & Kugel, P. I. (2015). Detection of hail signatures from single-polarization C-band radar reflectivity. Atmospheric Research, 153, Mason, P., The Physics of Clouds. Oxford University Press. Punge, H. J., & Kunz, M. (2016). Hail observations and hailstorm characteristics in Europe: A review. Atmospheric Research, 176, Ryzhkov, A. V., Kumjian, M. R., Ganson, S. M., & Khain, A. P. (2013). Polarimetric radar characteristics of melting hail. Part I: Theoretical simulations using spectral microphysical modeling. Journal of Applied Meteorology and Climatology, 52(12), Tammets, T., & Kallis, A. (2008). Eesti ilma riskid. Estonian Meteorological and Hydrological Institute, Tallinn. Tuovinen, J. P., Punkka, A. J., Rauhala, J., Hohti, H., & Schultz, D. M. (2009). Climatology of severe hail in Finland: Monthly Weather Review, 137(7), Tuovinen, J. P., Rauhala, J., & Schultz, D. M. (2015). Significant-Hail-Producing Storms in Finland: Convective-Storm Environment and Mode. Weather and Forecasting, 30(4), Figure 11: Radar RHI reflectivity (dbz) at 1540 UTC
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